Chapter 14: Analytical Ultracentrifugation in the Study of Protein Self-association and Heterogeneous Protein–Protein Interactions—References
Ansevin A.T., Roark D.E., and Yphantis D.A. 1970. Improved ultracentrifuge cells for high-speed sedimentation equilibrium studies with interference optics. Anal. Biochem. 34: 237–261.
Arisaka F. 1999. Applications and future perspectives of analytical ultracentrifugation. Tanpakushitsu Kakusan Koso 44: 82–91.
Arkin M. and Lear J.D. 2001. A new data analysis method to determine binding constants of small molecules using equilibrium analytical ultracentrifugation with absorption optics. Anal. Biochem. 299: 98–107.
Balbo A., Minor K.H., Velikovsky C.A., Mariuzza R., Peterson C.B., and Schuck P. 2005. Studying multi-protein complexes by multi-signal sedimentation velocity analytical ultracentrifugation. Proc. Natl. Acad. Sci. 102: 81–86.
Behlke J. and Ristau O. 2002. A new approximate whole boundary solution of the Lamm differential equation for the analysis of sedimentation velocity experiments. Biophys. Chem. 95: 59–68.
Bevington P.R. and Robinson D.K. 1992. Data reduction and error analysis for the physical sciences. McGraw-Hill, New York.
Chatelier R.C. and Minton A.P. 1987. Sedimentation equilibrium in macromolecular solutions of arbitrary concentration. II. Two protein components. Biopolymers 26: 1097–1113.
Cole J.L. 2004. Analysis of heterogeneous interactions. Methods Enzymol. 384: 212–232.
Correia J.J. and Yphantis D.A. 1992. Equilibrium sedimentation in short solution columns. In Analytical ultracentrifugation in biochemistry and polymer science (ed. S.E. Harding et al.), pp. 231–252. Royal Society of Chemistry, Cambridge, United Kingdom.
Costenaro L. and Ebel C. 2002. Thermodynamic relationships between protein-solvent and protein-protein interactions. Acta Crystallogr. Sect. D Biol. Crystallogr. 58: 1554–1559.
Cox D.J. and Dale R.S. 1981. Simulation of transport experiments for interacting systems. In Protein–protein interactions (ed. C. Frieden and L.W. Nichol), pp. 174–211. Wiley, New York.
Dam J. and Schuck P. 2004. Calculating sedimentation coefficient distributions by direct modeling of sedimentation velocity profiles. Methods Enzymol. 384: 185–212.
Dam J., Velikovsky C.A., Mariuzza R.A., Urbanke C., and Schuck P. 2005. Sedimentation velocity analysis of heterogeneous protein-protein interactions: Lamm equation modeling and sedimentation coefficient distributions c(s). Biophys. J. (in press).
Demeler B., Saber H., and Hansen J.C. 1997. Identification and interpretation of complexity in sedimentation velocity boundaries. Biophys J. 72: 397–407.
Dishon M., Weiss G.H., and Yphantis D.A. 1967. Numerical simulations of the Lamm equation. III. Velocity centrifugation. Biopolymers 5: 697–713.
Edelstein J., and Schachman H. 1967. Simultaneous determination of partial specific volumes and molecular weights with microgram quantities. J. Biol. Chem. 242: 306–311.
Fujita H. 1975. Foundations of ultracentrifugal analysis. Wiley, New York.
Garcia De La Torre J., Huertas M.L., and Carrasco B. 2000. Calculation of hydrodynamic properties of globular proteins from their atomic-level structure. Biophys J. 78: 719–730.
Gilbert G.A. and Jenkins R.C. 1956. Boundary problems in the sedimentation and electrophoresis of complex systems in rapid reversible equilibrium. Nature 177: 853–854.
Hanlon S., Lamers K., Lauterbach G., Johnson R., and Schachman H.K. 1962. Ultracentrifuge studies with absorption optics. I. An automatic photoelectric scanning absorption system. Arch. Biochem. Biophys. 99: 157–174.
Hansen J.C., Lebowitz J., and Demeler B. 1994. Analytical ultracentrifugation of complex macromolecular systems. Biochemistry 33: 13155–13163.
Harrington W.F. and Kegeles G. 1973. Pressure effects in ultracentrifugation of interacting systems. Methods Enzymol. 27: 306–345.
Ifft J.B. 1976. Sedimentation equilibrium of proteins in density gradients. Biophys. Chem. 5: 137–157.
Johnson M.L. and Straume M. 1994. Comments on the analysis of sedimentation equilibrium experiments. In Modern analytical ultracentrifugation (ed. T.M. Schuster and T.M. Laue), pp. 37–65. Birkhäuser, Boston, Massachusetts.
Kar S.R., Kinsbury J.S., Lewis M.S., Laue T.M., and Schuck P. 2000. Analysis of transport experiment using pseudo-absorbance data. Anal. Biochem. 285: 135–142.
Lamm O. 1929. Die Differentialgleichung der Ultrazentrifugierung. Ark. Mat. Astr. Fys. 21B: 1–4.
Laue T.M. 1999. Analytical centrifugation: Equilibrium approach. In Current protocols in protein science (ed. J.E. Coligan et al.), pp. 20.3.1–20.3.13. Wiley, New York.
Laue T.M. and Stafford W.F.I. 1999. Modern applications of analytical ultracentrifugation. Annu. Rev. Biophys. Biomol. Struct. 28: 75–100.
Laue T.M., Domanik R.A., and Yphantis D.A. 1983. Rapid precision interferometry for the analytical ultracentrifuge. I. A laser controller based on a phase-lock-loop circuit. Anal. Biochem. 131: 220–231.
Laue T.M., Shah B.D., Ridgeway T.M., and Pelletier S.L. 1992. Computer-aided interpretation of analytical sedimentation data for proteins. In Analytical ultracentrifugation in biochemistry and polymer science (ed. S.E. Harding et al.), pp. 90–125. Royal Society of Chemistry, Cambridge, United Kingdom.
Lebowitz J., Lewis M.S., and Schuck P. 2002. Modern analytical ultracentrifugation in protein science: A tutorial review. Protein Sci. 11: 2067–2079.
Lebowitz J., Teale M., and Schuck P. 1998. Analytical band centrifugation of proteins and protein complexes. Biochem. Soc. Trans. 26: 745–749.
Lewis M.S. and Reily M.M. 2005. Application of weighted robust regression to equilibrium ultracentrifugation. In Modern analytical ultracentrifugation: Techniques and methods (ed. D.J. Scott et al.). Royal Society of Chemistry, Cambridge. (In press.)
Lewis M.S., Shrager R.I., and Kim S.-J. 1993. Analysis of protein-nucleic acid and protein-protein interactions using multi-wavelength scans from the XL-A analytical ultracentrifuge. In Modern analytical ultracentrifugation (ed. T.M. Schuster and T.M. Laue), pp. 94–115. Birkhäuser, Boston, Massachusetts.
MacRaild C.A., Hatters D.M., Lawrence L.J., and Howlett G.J. 2003. Sedimentation velocity analysis of flexible macromolecules: Self-association and tangling of amyloid fibrils. Biophys. J. 84: 2562–2569.
Philo J.S. 1997a. An improved function for fitting sedimentation velocity data for low molecular weight solutes. Biophys. J. 72: 435–444.
Philo J.S. 1997b. Probing receptor-ligand interactions by sedimentation equilibrium. Proc. SPIE 2985: 170–177.
Philo J.S. 2000a. A method for directly fitting the time derivative of sedimentation velocity data and an alternative algorithm for calculating sedimentation coefficient distribution functions. Anal. Biochem. 279: 151–163.
Philo J.S. 2000b. Sedimentation equilibrium analysis of mixed associations using numerical constraints to impose mass or signal conservation. Methods Enzymol. 321: 100–120.
Richards E.G. and Schachman H.K. 1959. Ultracentrifuge studies with Rayleigh interference optics. I. General applications. J. Phys. Chem. 63: 1578–1591.
Rivas G., Fernandez J.A., and Minton A.P. 1999a. Direct observation of the self-association of dilute proteins in the presence of inert macromolecules at high concentration via tracer sedimentation equilibrium: Theory, experiment, and biological significance. Biochemistry 38: 9379–9388.
Rivas G., Stafford W., and Minton A.P. 1999b. Characterization of heterologous protein-protein interactions via analytical ultracentrifugation. Methods 19: 194–212.
Rowe A.J. 1992. The concentration dependence of sedimentation. In Analytical ultracentrifugation in biochemistry and polymer science (ed. S.E. Harding et al.), pp. 394–406. Royal Society of Chemistry, Cambridge, United Kingdom.
Schachman H.K. 1959. Ultracentrifugation in biochemistry. Academic Press, New York.
Schachman H.K. 1992. Is there a future for the ultracentrifuge? In Analytical ultracentrifugation in biochemistry and polymer science (ed. S.E. Harding et al.), pp. 3–15. Royal Society of Chemistry, Cambridge, United Kingdom.
Schuck P. 1994. Simultaneous radial and wavelength analysis with the Optima XL-A analytical ultracentrifuge. Progr. Colloid. Polym. Sci. 94: 1–13.
Schuck P. 1998. Sedimentation analysis of noninteracting and self-associating solutes using numerical solutions to the Lamm equation. Biophys. J. 75: 1503–1512.
Schuck P. 2000. Size distribution analysis of macromolecules by sedimentation velocity ultracentrifugation and Lamm equation modeling. Biophys. J. 78: 1606–1619.
Schuck P. 2003. On the analysis of protein self-association by sedimentation velocity analytical ultracentrifugation. Anal. Biochem. 320: 104–124.
Schuck P. 2005. Diffusion-deconvoluted sedimentation coefficient distributions for the analysis of interacting and non-interacting protein mixtures. In Modern analytical ultracentrifugation: Techniques and methods (ed. D.J. Scott et al.). Royal Society of Chemistry, Cambridge. (In press.)
Schuck P. and Braswell E.H. 2000. Measurement of protein interactions by equilibrium ultracentrifugation. In Current protocols in immunology (ed. J.E. Coligan et al.), pp. 18.8.1–18.8.22. Wiley, New York.
Schuck P. and Demeler B. 1999. Direct sedimentation analysis of interference optical data in analytical ultracentrifugation. Biophys. J. 76: 2288–2296.
Schuck P. and Millar D.B. 1998. Rapid determination of molar mass in modified Archibald experiments using direct fitting of the Lamm equation. Anal. Biochem. 259: 48–53.
Schuck P. and Rossmanith P. 2000. Determination of the sedimentation coefficient distribution by least-squares boundary modeling. Biopolymers 54: 328–341.
Schuck P., MacPhee C.E., and Howlett G.J. 1998. Determination of sedimentation coefficients for small peptides. Biophys. J. 74: 466–474.
Schuck P., Radu C.G., and Ward E.S. 1999. Sedimentation equilibrium analysis of recombinant mouse FcRn with murine IgG1 and Fc fragment. Mol. Immunol. 36: 1117–1125.
Schuck P., Perugini M.A., Gonzales N.R., Howlett G.J., and Schubert D. 2002. Size-distribution analysis of proteins by analytical ultracentrifugation: Strategies and application to model systems. Biophys. J. 82: 1096–1111.
Scott D.J. and Schuck P. 2005. A brief introduction to the analytical ultracentrifugation of proteins for beginners. In Modern analytical ultracentrifugation: Techniques and methods (ed. D.J. Scott et al.). Royal Society of Chemistry, Cambridge. (In press.)
Servillo L., Brewer H.B., and Osborne J.C. 1981. Evaluation of the mixed interaction between apolipoproteins A-II and C-I by equilibrium sedimentation. Biophys. Chem. 13: 29–38.
Solovyova A., Schuck P., Costenaro L., and Ebel C. 2001. Non-ideality by sedimentation velocity of halophilic malate dehydrogenase in complex solvents. Biophys. J. 81: 1868–1880.
Stafford W.F. 1992. Boundary analysis in sedimentation transport experiments: A procedure for obtaining sedimentation coefficient distributions using the time derivative of the concentration profile. Anal. Biochem. 203: 295–301.
Stafford W.F. and Sherwood P.J. 2004. Analysis of heterologous interacting systems by sedimentation velocicty: Curve fitting algorithms for estimation of sedimentation coefficients, equilibrium and kinetic constants. Biophys. Chem. 108: 231–243.
Straume M. and Johnson M.L. 1992. Analysis of residuals: Criteria for determining goodness-of-fit. Methods Enzymol. 210: 87–105.
Svedberg T. and Pedersen K.O. 1940. The ultracentrifuge. Oxford University Press, London.
Tanford C. 1961. Physical chemistry of macromolecules. Wiley, New York.
van Holde K.E. and Weischet W.O. 1978. Boundary analysis of sedimentation velocity experiments with monodisperse and paucidisperse solutes. Biopolymers 17: 1387–1403.
Vistica J., Dam J., Balbo A., Yikilmaz E., Mariuzza R.A., Rouault T.A., and Schuck P. 2004. Sedimentation equilibrium analysis of protein interactions with global implicit mass conservation constraints and systematic noise decomposition. Anal. Biochem. 326: 234–256.
<<< Chapter 13 References
Chapter 15 References >>>
|
